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21.
The loading of amino acids and nitrate into the xylem was investigated by collection and analysis of root-pressure exudate from the cut hypocotyl stumps of seedlings of Ricinus communis L. Glutamine was found to be the dominant amino acid in the exudate and also to be the amino acid which is transferred to the xylem most rapidly and accumulated to the greatest extent. The comparison between uptake and xylem loading showed significant differences in specificity between these two transport reactions, indicating a different set of transport systems. Nitrate is transferred to the xylem at a higher relative rate than any amino acid despite the great nitrate-storage capacity of the root system. Thus the supply of nitrate to Ricinus plants leads to enhanced nitrogen allocation to the shoots. 相似文献
22.
Kay Robinson-Beers Th. D. Sharkey R. F. Evert 《Plant biology (Stuttgart, Germany)》1990,103(4):424-429
Sink-to-source transition was studied in developing sugarcane (Saccharum interspecific variety L62–96) leaves. Fully-expanded, mature sugarcane leaves were fed 14CO2 for 20 minutes, incorporating about 617 Bq. After five hours the leaves of each plant were cut into 1-cm-length segments that were weighed and then placed in scintillation cocktail for counting. All leaves younger than the leaf fed 14CO2 imported labeled photoassimilate. Three to four leaves had both importing and non-importing regions within the blade and a distinct transition region between them. A transition region was observed in leaves which had expanded to between 30 and 90 % of final blade length. Radioactivity per gram fresh weight was calculated as a measure of sink strength. Sink strength was greatest in the youngest leaf and declined with leaf age. The results of this study indicate that 1) import of photosynthate by developing sugarcane leaves occurs over a longer span of developmental ages than in dicotyledonous leaves and 2) the actual tissue region undergoing transition within such a leaf can be resolved as narrow zone between the importing and non-importing regions. 相似文献
23.
24.
R. S. SENOCK J. M. HAM T. M. LOUGHIN B. A. KIMBALL D. J. HUNSAKER P. J. PINTER G. W. WALL R. L. GARCIA R. L. LaMORTE 《Plant, cell & environment》1996,19(2):147-158
The effects of elevated carbon dioxide (CO2) concentration on plant water use are best evaluated on plants grown under field conditions and with measurement techniques that do not disturb the natural function of the plant. Heat balance sap flow gauges were used on individual main stems of wheat (Triticum aestivum L. cv Yecora rojo) grown under normal ambient conditions (control) and in a free-air CO2 enrichment (FACE) system in Arizona with either high (control + high H2O = CW; FACE + high H2O = FW) or low (control + low H2O = CD; FACE + low H2O = FD) irrigation regimens. Over a 30d period (stem elongation to anthesis), combinations of treatments were monitored with,10–40 gauges per treatment. The effects of increased CO2 on tiller water use were inconsistent in both the diurnal patterns of sap flow and the statistical analyses of daily sap flow (Ftot). Initial results suggested that the reductions in Ftot, from CO2 enrichment were small (,0–10%) in relation to the H2O treatment effect (,20–30%). For a 3d period, Ftot of FW was,19–26% less than that of CW (P = 0.10). Examination of the different sources of variation in the study revealed that the location of gauges within the experimental plots influenced the variance of the sap flow measurements. This variation was probably related to positional variation in subsurface drip lines used to irrigate plots. A sampling design was proposed for use of sap flow gauges in FACE systems with subsurface irrigation that takes into account the main treatment effects of CO2 enrichment and the other sources of variation identified in this study. Despite the small and often statistically non-significant differences in Ftot between the CW and FW treatments, cumulative water use of the FW treatment at the end of the first three test periods ranged from 7 to 23% lower than that of the CW treatment. Differences in sap flow between FW and CW compared well with treatment differences in evapotranspiration. The results of the study, based on the first reported sap flow measurements of wheat, suggest that irrigation requirements for wheat production, in the present climatic regimen of the south-western US, may be predicted to decrease slightly because of increasing atmospheric CO2. 相似文献
25.
植食性同翅目昆虫在最终接受其宿主植物的过程中,将感受从叶表层直到韧皮部筛管途中存在的多种化学物质,并导致不同的刺探和取食行为。本文就植物叶表层存在的糖类和生物碱类物质,叶肉层的多糖类、酸碱度和酚类物质以及韧皮部内的氨基酸、蛋白质、碳水化合物和植物次生物质等对昆虫寻找及取食韧皮部行为的影响作一综述,并且还探讨了植物叶肉层的细胞结构对昆虫刺探及取食行为的可能影响。此外,结合刺探电位(electrical penetration graphs,EPGs)的研究结果,还讨论了昆虫感受植物叶组织内部的各种化学和细胞结构信息的可能机制。 相似文献
26.
Aphid activities during sieve element punctures 总被引:13,自引:0,他引:13
Aphid salivation in sieve elements and phloem sap ingestion were linked to waveforms in the Electrical Penetration Graph (EPG).
Non-viruliferousRhopalosiphum padi (L.) (Hemiptera, Aphididae) on barley yellow dwarf virus (BYDV) infected wheat could acquire the virus, which was used as
an indication for phloem sap ingestion, whereas virus inoculation by viruliferous aphids on healthy plants was associated
with salivation in sieve elements or other phloem cells. Probing was monitored and the waveforms recorded were related to
ELISA results of test plants. The EPG patterns A, B, and C are indicative of the stylet pathway phase, whereas patterns E1
and E2 reflect the phloem (sieve element) phase with an unknown activity (E1) or with ingestion and concurrent salivation
(E2). Aphids showing pathway and E1 rarely acquired virus, suggesting that little or no phloem sap ingestion can occur during
these patterns, whereas those showing additionally pattern E2 did so substantially, indicating phloem sap ingestion. The main
pattern related to virus inoculation was E1, although some aphids were able to inoculate plants during pathway. Pattern E1
clearly reflects the most important salivation into sieve elements. Pattern E2 had no clear contribution to virus inoculation,
supporting the present hypothesis that during this pattern the saliva is mixed with the phloem sap in the single canal at
the stylet tips and ingested immediately, without reaching the plant tissue. Sustained sap ingestion did not affect virus
inoculation. So, BYDV inoculation mainly occurs during the first period of a sieve element puncture which is always formed
by E1. Implications on persistent virus transmission are discussed. 相似文献
27.
Summary With an attempt to measure the motive force responsible for cytoplasmic streaming in characean internodal cells, the difference between densities of cytoplasm and vacuolar sap was heightened by about 10 times (density of vacuolar sap was made larger than that of cytoplasm) by replacing the natural vacuolar sap ofChara corallina with an artificial one of higher density. Endoplasmic flow contiguous to the peripheral actin cables (peripheral flow of endoplasm) in the centrifugal direction was not influenced at all by the application of centrifugal acceleration up to 1400 g. We thus concluded that the motive force for the peripheral flow should be much larger than 12dyn/cm2, a figure more than 10 times larger than that for bulk endop lasmic flow so far reported.Dedicated to Emeritus Professor Noburo Kamiya on the occasion of his 80th birthday 相似文献
28.
29.
J. W. Patrick 《Physiologia plantarum》1994,90(4):645-654
The in vivo significance of turgor-dependent unloading was evaluated by examining assimilate transport to and within intact developing seeds of Phaseolus vulgaris (cv. Redland Pioneer) and Vicia faba (cv. Coles Prolific). The osmotic potentials of the seed apoplast were low. As a result, the osmotic gradients to the seed coat symplast were relatively small (i.e. 0.1 to 0.3 MPa). Sap concentrations of sucrose and potassium in the seed apoplast and coat symplast accounted for some 45 to 60% of the osmotic potentials of these compartments. Estimated turnover times of potassium and sucrose in the seed apoplast of < 1 h were some 5 to 13 times faster than the respective turnover times in the coat symplast pools. The small osmotic gradient between the seed apoplast and coat symplast combined with the relatively rapid turnover of solutes in the apoplast pool, confers the potential for a small change in assimilate uptake by the cotyledons to be rapidly translated into an amplified shift in the cell turgor of the seed coat. Observed adjustments in the osmotic potentials of solutions infused between the coat and cotyledons of intact seed were consistent with the in vivo operation of turgor-dependent unloading of solutes from the coat. Homeostatic regulation of turgor-dependent unloading was indicated by the maintenance of apoplast osmotic potentials of intact seeds when assimilate balance was manipulated by partial defoliation or elevating pod temperature. In contrast, osmotic potentials of the coat symplast adjusted upward to new steady values over a 2 to 4 h period. The resultant downward shift in coat cell turgor could serve to integrate phloem import into the seed coat with the new rates of efflux to the seed apoplast. Circumstantial evidence for this linkage was suggested by the approximate coincidence of the turgor changes with those in stem levels of 32P used to monitor phloem transport. The results obtained provide qualified support for the in vivo operation of a turgor homeostat mechanism. It is proposed that the homeostat functions to integrate assimilate demand by the cotyledons with efflux from and phloem import into the coats of developing legume seed. 相似文献
30.
Since the late eighties a handy and user-friendly sap flow meter (Dynagage®) is on the market which can quantify 0205 the sap flow through intact plant stems, based on the stem heat balance method. The documentation about its accuracy and reliability, however, is still too limited to use it as a standard method in field experiments with apple trees. We therefore tested this commercial system on potted apple trees (Malus domestica L.; cv. Red Elstar and Jonagold; on rootstock M9 vf) with stem diameters of 1.8 to 4 cm. The measured sap flow was compared with mass loss measured by an automated balance, supposing the total mass loss of the trees was equal to the water loss by transpiration. The results revealed three major problems:
In order to avoid these problems we constructed a sap flow meter which guarantees an optimum contact with the stem and works with continuously controlled power supply. Both aspects, response time and effect on the bark tissue, could be improved: in all measurement series the average sap flow (during light period) deviated <4% and=" often=">4%><1% from=" mass=" loss.=" the=" differences=" were=" usually=">1%><15% for=" the=" short-term=" averages=" through=" 15–30=" min.=" the=" modified=" sap=" flow=" meter=" also=" proved=" reliable=" during=" 10-day=" measurements=" in=" the=" field.=" however,=" for=" time-accurate=" measurements=" on=" apple=" trees=" with=" a=" stem=" diameter=">3–4 cm accounting for the energy stored in the heated stem section became indispensable.15%> 相似文献
1. | When there was no optimum contact of the elements of the gauge with the stem, which is typically very irregular on young apple trees, the calculated sap flow rates (accumulated through 24 h) showed errors >20%. |
2. | On 4 year-old trees the calculated sap flow rate showed considerable time lags in periods with abruptly changing transpiration rates, mainly because this sap flow method does not account for energy which is stored in the heated stem section. |
3. | The constant power input to the stem given with this sap flow meter caused heat damages to the bark tissue after >6 days of continuous measurements. |